tor/src/test/test_scheduler.c

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2017-03-15 21:13:17 +01:00
/* Copyright (c) 2014-2017, The Tor Project, Inc. */
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/* See LICENSE for licensing information */
#include "orconfig.h"
#include <math.h>
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#include <event2/event.h>
#define SCHEDULER_KIST_PRIVATE
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#define TOR_CHANNEL_INTERNAL_
#define CHANNEL_PRIVATE_
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#include "or.h"
#include "config.h"
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#include "compat_libevent.h"
#include "channel.h"
#include "channeltls.h"
#include "connection.h"
#include "networkstatus.h"
#define SCHEDULER_PRIVATE_
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#include "scheduler.h"
/* Test suite stuff */
#include "test.h"
#include "fakechans.h"
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/* Shamelessly stolen from compat_libevent.c */
#define V(major, minor, patch) \
(((major) << 24) | ((minor) << 16) | ((patch) << 8))
/******************************************************************************
* Statistical info
*****************************************************************************/
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static int scheduler_compare_channels_mock_ctr = 0;
static int scheduler_run_mock_ctr = 0;
/******************************************************************************
* Utility functions and things we need to mock
*****************************************************************************/
static or_options_t mocked_options;
static const or_options_t *
mock_get_options(void)
{
return &mocked_options;
}
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static void
cleanup_scheduler_options(void)
{
if (mocked_options.SchedulerTypes_) {
SMARTLIST_FOREACH(mocked_options.SchedulerTypes_, int *, i, tor_free(i));
smartlist_free(mocked_options.SchedulerTypes_);
mocked_options.SchedulerTypes_ = NULL;
}
}
static void
set_scheduler_options(int val)
{
int *type;
if (mocked_options.SchedulerTypes_ == NULL) {
mocked_options.SchedulerTypes_ = smartlist_new();
}
type = tor_malloc_zero(sizeof(int));
*type = val;
smartlist_add(mocked_options.SchedulerTypes_, type);
}
static void
clear_options(void)
{
cleanup_scheduler_options();
memset(&mocked_options, 0, sizeof(mocked_options));
}
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static int32_t
mock_vanilla_networkstatus_get_param(
const networkstatus_t *ns, const char *param_name, int32_t default_val,
int32_t min_val, int32_t max_val)
{
(void)ns;
(void)default_val;
(void)min_val;
(void)max_val;
// only support KISTSchedRunInterval right now
tor_assert(strcmp(param_name, "KISTSchedRunInterval")==0);
return 0;
}
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static int32_t
mock_kist_networkstatus_get_param(
const networkstatus_t *ns, const char *param_name, int32_t default_val,
int32_t min_val, int32_t max_val)
{
(void)ns;
(void)default_val;
(void)min_val;
(void)max_val;
// only support KISTSchedRunInterval right now
tor_assert(strcmp(param_name, "KISTSchedRunInterval")==0);
return 12;
}
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/* Event base for scheduelr tests */
static struct event_base *mock_event_base = NULL;
/* Setup for mock event stuff */
static void mock_event_free_all(void);
static void mock_event_init(void);
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static void
mock_event_free_all(void)
{
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tt_ptr_op(mock_event_base, OP_NE, NULL);
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if (mock_event_base) {
event_base_free(mock_event_base);
mock_event_base = NULL;
}
tt_ptr_op(mock_event_base, OP_EQ, NULL);
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done:
return;
}
static void
mock_event_init(void)
{
struct event_config *cfg = NULL;
tt_ptr_op(mock_event_base, OP_EQ, NULL);
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/*
* Really cut down from tor_libevent_initialize of
* src/common/compat_libevent.c to kill config dependencies
*/
if (!mock_event_base) {
cfg = event_config_new();
#if LIBEVENT_VERSION_NUMBER >= V(2,0,9)
/* We can enable changelist support with epoll, since we don't give
* Libevent any dup'd fds. This lets us avoid some syscalls. */
event_config_set_flag(cfg, EVENT_BASE_FLAG_EPOLL_USE_CHANGELIST);
#endif
mock_event_base = event_base_new_with_config(cfg);
event_config_free(cfg);
}
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tt_ptr_op(mock_event_base, OP_NE, NULL);
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done:
return;
}
static struct event_base *
tor_libevent_get_base_mock(void)
{
return mock_event_base;
}
static int
scheduler_compare_channels_mock(const void *c1_v,
const void *c2_v)
{
uintptr_t p1, p2;
p1 = (uintptr_t)(c1_v);
p2 = (uintptr_t)(c2_v);
++scheduler_compare_channels_mock_ctr;
if (p1 == p2) return 0;
else if (p1 < p2) return 1;
else return -1;
}
static void
scheduler_run_noop_mock(void)
{
++scheduler_run_mock_ctr;
}
static circuitmux_t *mock_ccm_tgt_1 = NULL;
static circuitmux_t *mock_ccm_tgt_2 = NULL;
static circuitmux_t *mock_cgp_tgt_1 = NULL;
static circuitmux_policy_t *mock_cgp_val_1 = NULL;
static circuitmux_t *mock_cgp_tgt_2 = NULL;
static circuitmux_policy_t *mock_cgp_val_2 = NULL;
static const circuitmux_policy_t *
circuitmux_get_policy_mock(circuitmux_t *cmux)
{
const circuitmux_policy_t *result = NULL;
tt_assert(cmux != NULL);
if (cmux) {
if (cmux == mock_cgp_tgt_1) result = mock_cgp_val_1;
else if (cmux == mock_cgp_tgt_2) result = mock_cgp_val_2;
else result = circuitmux_get_policy__real(cmux);
}
done:
return result;
}
static int
circuitmux_compare_muxes_mock(circuitmux_t *cmux_1,
circuitmux_t *cmux_2)
{
int result = 0;
tt_assert(cmux_1 != NULL);
tt_assert(cmux_2 != NULL);
if (cmux_1 != cmux_2) {
if (cmux_1 == mock_ccm_tgt_1 && cmux_2 == mock_ccm_tgt_2) result = -1;
else if (cmux_1 == mock_ccm_tgt_2 && cmux_2 == mock_ccm_tgt_1) {
result = 1;
} else {
if (cmux_1 == mock_ccm_tgt_1 || cmux_1 == mock_ccm_tgt_2) result = -1;
else if (cmux_2 == mock_ccm_tgt_1 || cmux_2 == mock_ccm_tgt_2) {
result = 1;
} else {
result = circuitmux_compare_muxes__real(cmux_1, cmux_2);
}
}
}
/* else result = 0 always */
done:
return result;
}
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typedef struct {
const channel_t *chan;
ssize_t cells;
} flush_mock_channel_t;
static smartlist_t *chans_for_flush_mock = NULL;
static void
channel_flush_some_cells_mock_free_all(void)
{
if (chans_for_flush_mock) {
SMARTLIST_FOREACH_BEGIN(chans_for_flush_mock,
flush_mock_channel_t *,
flush_mock_ch) {
SMARTLIST_DEL_CURRENT(chans_for_flush_mock, flush_mock_ch);
tor_free(flush_mock_ch);
} SMARTLIST_FOREACH_END(flush_mock_ch);
smartlist_free(chans_for_flush_mock);
chans_for_flush_mock = NULL;
}
}
static void
channel_flush_some_cells_mock_set(channel_t *chan, ssize_t num_cells)
{
int found = 0;
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if (!chan) return;
if (num_cells <= 0) return;
if (!chans_for_flush_mock) {
chans_for_flush_mock = smartlist_new();
}
SMARTLIST_FOREACH_BEGIN(chans_for_flush_mock,
flush_mock_channel_t *,
flush_mock_ch) {
if (flush_mock_ch != NULL && flush_mock_ch->chan != NULL) {
if (flush_mock_ch->chan == chan) {
/* Found it */
flush_mock_ch->cells = num_cells;
found = 1;
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break;
}
} else {
/* That shouldn't be there... */
SMARTLIST_DEL_CURRENT(chans_for_flush_mock, flush_mock_ch);
tor_free(flush_mock_ch);
}
} SMARTLIST_FOREACH_END(flush_mock_ch);
if (! found) {
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/* The loop didn't find it */
flush_mock_channel_t *flush_mock_ch;
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flush_mock_ch = tor_malloc_zero(sizeof(*flush_mock_ch));
flush_mock_ch->chan = chan;
flush_mock_ch->cells = num_cells;
smartlist_add(chans_for_flush_mock, flush_mock_ch);
}
}
static int
channel_more_to_flush_mock(channel_t *chan)
{
tor_assert(chan);
flush_mock_channel_t *found_mock_ch = NULL;
/* Check if we have any queued */
if (! TOR_SIMPLEQ_EMPTY(&chan->incoming_queue))
return 1;
SMARTLIST_FOREACH_BEGIN(chans_for_flush_mock,
flush_mock_channel_t *,
flush_mock_ch) {
if (flush_mock_ch != NULL && flush_mock_ch->chan != NULL) {
if (flush_mock_ch->chan == chan) {
/* Found it */
found_mock_ch = flush_mock_ch;
break;
}
} else {
/* That shouldn't be there... */
SMARTLIST_DEL_CURRENT(chans_for_flush_mock, flush_mock_ch);
tor_free(flush_mock_ch);
}
} SMARTLIST_FOREACH_END(flush_mock_ch);
tor_assert(found_mock_ch);
/* Check if any circuits would like to queue some */
/* special for the mock: return the number of cells (instead of 1), or zero
* if nothing to flush */
return (found_mock_ch->cells > 0 ? (int)found_mock_ch->cells : 0 );
}
static void
channel_write_to_kernel_mock(channel_t *chan)
{
(void)chan;
//log_debug(LD_SCHED, "chan=%d writing to kernel",
// (int)chan->global_identifier);
}
static int
channel_should_write_to_kernel_mock(outbuf_table_t *ot, channel_t *chan)
{
(void)ot;
(void)chan;
return 1;
/* We could make this more complicated if we wanted. But I don't think doing
* so tests much of anything */
//static int called_counter = 0;
//if (++called_counter >= 3) {
// called_counter -= 3;
// log_debug(LD_SCHED, "chan=%d should write to kernel",
// (int)chan->global_identifier);
// return 1;
//}
//return 0;
}
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static ssize_t
channel_flush_some_cells_mock(channel_t *chan, ssize_t num_cells)
{
ssize_t flushed = 0, max;
char unlimited = 0;
flush_mock_channel_t *found = NULL;
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tt_ptr_op(chan, OP_NE, NULL);
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if (chan) {
if (num_cells < 0) {
num_cells = 0;
unlimited = 1;
}
/* Check if we have it */
if (chans_for_flush_mock != NULL) {
SMARTLIST_FOREACH_BEGIN(chans_for_flush_mock,
flush_mock_channel_t *,
flush_mock_ch) {
if (flush_mock_ch != NULL && flush_mock_ch->chan != NULL) {
if (flush_mock_ch->chan == chan) {
/* Found it */
found = flush_mock_ch;
break;
}
} else {
/* That shouldn't be there... */
SMARTLIST_DEL_CURRENT(chans_for_flush_mock, flush_mock_ch);
tor_free(flush_mock_ch);
}
} SMARTLIST_FOREACH_END(flush_mock_ch);
if (found) {
/* We found one */
if (found->cells < 0) found->cells = 0;
if (unlimited) max = found->cells;
else max = MIN(found->cells, num_cells);
flushed += max;
found->cells -= max;
}
}
}
done:
return flushed;
}
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static void
update_socket_info_impl_mock(socket_table_ent_t *ent)
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{
ent->cwnd = ent->unacked = ent->mss = ent->notsent = 0;
ent->limit = INT_MAX;
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}
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static void
perform_channel_state_tests(int KISTSchedRunInterval, int sched_type)
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{
channel_t *ch1 = NULL, *ch2 = NULL;
int old_count;
/* setup options so we're sure about what sched we are running */
MOCK(get_options, mock_get_options);
clear_options();
mocked_options.KISTSchedRunInterval = KISTSchedRunInterval;
set_scheduler_options(sched_type);
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/* Set up libevent and scheduler */
mock_event_init();
MOCK(tor_libevent_get_base, tor_libevent_get_base_mock);
scheduler_init();
/*
* Install the compare channels mock so we can test
* scheduler_touch_channel().
*/
MOCK(scheduler_compare_channels, scheduler_compare_channels_mock);
/*
* Disable scheduler_run so we can just check the state transitions
* without having to make everything it might call work too.
*/
((scheduler_t *) the_scheduler)->run = scheduler_run_noop_mock;
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tt_int_op(smartlist_len(channels_pending), OP_EQ, 0);
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/* Set up a fake channel */
ch1 = new_fake_channel();
tt_assert(ch1);
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/* Start it off in OPENING */
ch1->state = CHANNEL_STATE_OPENING;
/* We'll need a cmux */
ch1->cmux = circuitmux_alloc();
/* Try to register it */
channel_register(ch1);
tt_assert(ch1->registered);
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/* It should start off in SCHED_CHAN_IDLE */
tt_int_op(ch1->scheduler_state, OP_EQ, SCHED_CHAN_IDLE);
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/* Now get another one */
ch2 = new_fake_channel();
tt_assert(ch2);
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ch2->state = CHANNEL_STATE_OPENING;
ch2->cmux = circuitmux_alloc();
channel_register(ch2);
tt_assert(ch2->registered);
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/* Send ch1 to SCHED_CHAN_WAITING_TO_WRITE */
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scheduler_channel_has_waiting_cells(ch1);
tt_int_op(ch1->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_TO_WRITE);
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/* This should send it to SCHED_CHAN_PENDING */
scheduler_channel_wants_writes(ch1);
tt_int_op(ch1->scheduler_state, OP_EQ, SCHED_CHAN_PENDING);
tt_int_op(smartlist_len(channels_pending), OP_EQ, 1);
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/* Now send ch2 to SCHED_CHAN_WAITING_FOR_CELLS */
scheduler_channel_wants_writes(ch2);
tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_FOR_CELLS);
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/* Drop ch2 back to idle */
scheduler_channel_doesnt_want_writes(ch2);
tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_IDLE);
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/* ...and back to SCHED_CHAN_WAITING_FOR_CELLS */
scheduler_channel_wants_writes(ch2);
tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_FOR_CELLS);
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/* ...and this should kick ch2 into SCHED_CHAN_PENDING */
scheduler_channel_has_waiting_cells(ch2);
tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_PENDING);
tt_int_op(smartlist_len(channels_pending), OP_EQ, 2);
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/* This should send ch2 to SCHED_CHAN_WAITING_TO_WRITE */
scheduler_channel_doesnt_want_writes(ch2);
tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_TO_WRITE);
tt_int_op(smartlist_len(channels_pending), OP_EQ, 1);
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/* ...and back to SCHED_CHAN_PENDING */
scheduler_channel_wants_writes(ch2);
tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_PENDING);
tt_int_op(smartlist_len(channels_pending), OP_EQ, 2);
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/* Now we exercise scheduler_touch_channel */
old_count = scheduler_compare_channels_mock_ctr;
scheduler_touch_channel(ch1);
tt_assert(scheduler_compare_channels_mock_ctr > old_count);
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/* Close */
channel_mark_for_close(ch1);
tt_int_op(ch1->state, OP_EQ, CHANNEL_STATE_CLOSING);
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channel_mark_for_close(ch2);
tt_int_op(ch2->state, OP_EQ, CHANNEL_STATE_CLOSING);
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channel_closed(ch1);
tt_int_op(ch1->state, OP_EQ, CHANNEL_STATE_CLOSED);
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ch1 = NULL;
channel_closed(ch2);
tt_int_op(ch2->state, OP_EQ, CHANNEL_STATE_CLOSED);
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ch2 = NULL;
/* Shut things down */
channel_free_all();
scheduler_free_all();
mock_event_free_all();
done:
tor_free(ch1);
tor_free(ch2);
UNMOCK(scheduler_compare_channels);
UNMOCK(tor_libevent_get_base);
UNMOCK(get_options);
cleanup_scheduler_options();
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return;
}
static void
test_scheduler_compare_channels(void *arg)
{
/* We don't actually need whole fake channels... */
channel_t c1, c2;
/* ...and some dummy circuitmuxes too */
circuitmux_t *cm1 = NULL, *cm2 = NULL;
int result;
(void)arg;
/* We can't actually see sizeof(circuitmux_t) from here */
cm1 = tor_malloc_zero(sizeof(void *));
cm2 = tor_malloc_zero(sizeof(void *));
c1.cmux = cm1;
c2.cmux = cm2;
/* Configure circuitmux_get_policy() mock */
mock_cgp_tgt_1 = cm1;
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mock_cgp_tgt_2 = cm2;
/*
* This is to test the different-policies case, which uses the policy
* cast to an uintptr_t as an arbitrary but definite thing to compare.
*/
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mock_cgp_val_1 = tor_malloc_zero(16);
mock_cgp_val_2 = tor_malloc_zero(16);
if ( ((uintptr_t) mock_cgp_val_1) > ((uintptr_t) mock_cgp_val_2) ) {
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void *tmp = mock_cgp_val_1;
mock_cgp_val_1 = mock_cgp_val_2;
mock_cgp_val_2 = tmp;
}
MOCK(circuitmux_get_policy, circuitmux_get_policy_mock);
/* Now set up circuitmux_compare_muxes() mock using cm1/cm2 */
mock_ccm_tgt_1 = cm1;
mock_ccm_tgt_2 = cm2;
MOCK(circuitmux_compare_muxes, circuitmux_compare_muxes_mock);
/* Equal-channel case */
result = scheduler_compare_channels(&c1, &c1);
tt_int_op(result, OP_EQ, 0);
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/* Distinct channels, distinct policies */
result = scheduler_compare_channels(&c1, &c2);
tt_int_op(result, OP_EQ, -1);
result = scheduler_compare_channels(&c2, &c1);
tt_int_op(result, OP_EQ, 1);
/* Distinct channels, same policy */
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tor_free(mock_cgp_val_2);
mock_cgp_val_2 = mock_cgp_val_1;
result = scheduler_compare_channels(&c1, &c2);
tt_int_op(result, OP_EQ, -1);
result = scheduler_compare_channels(&c2, &c1);
tt_int_op(result, OP_EQ, 1);
done:
UNMOCK(circuitmux_compare_muxes);
mock_ccm_tgt_1 = NULL;
mock_ccm_tgt_2 = NULL;
UNMOCK(circuitmux_get_policy);
mock_cgp_tgt_1 = NULL;
mock_cgp_tgt_2 = NULL;
tor_free(cm1);
tor_free(cm2);
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if (mock_cgp_val_1 != mock_cgp_val_2)
tor_free(mock_cgp_val_1);
tor_free(mock_cgp_val_2);
mock_cgp_val_1 = NULL;
mock_cgp_val_2 = NULL;
return;
}
/******************************************************************************
* The actual tests!
*****************************************************************************/
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static void
test_scheduler_loop_vanilla(void *arg)
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{
(void)arg;
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channel_t *ch1 = NULL, *ch2 = NULL;
void (*run_func_ptr)(void);
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/* setup options so we're sure about what sched we are running */
MOCK(get_options, mock_get_options);
clear_options();
set_scheduler_options(SCHEDULER_VANILLA);
mocked_options.KISTSchedRunInterval = 0;
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/* Set up libevent and scheduler */
mock_event_init();
MOCK(tor_libevent_get_base, tor_libevent_get_base_mock);
scheduler_init();
/*
* Install the compare channels mock so we can test
* scheduler_touch_channel().
*/
MOCK(scheduler_compare_channels, scheduler_compare_channels_mock);
/*
* Disable scheduler_run so we can just check the state transitions
* without having to make everything it might call work too.
*/
run_func_ptr = the_scheduler->run;
((scheduler_t *) the_scheduler)->run = scheduler_run_noop_mock;
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tt_int_op(smartlist_len(channels_pending), OP_EQ, 0);
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/* Set up a fake channel */
ch1 = new_fake_channel();
ch1->magic = TLS_CHAN_MAGIC;
tt_assert(ch1);
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/* Start it off in OPENING */
ch1->state = CHANNEL_STATE_OPENING;
/* We'll need a cmux */
ch1->cmux = circuitmux_alloc();
/* Try to register it */
channel_register(ch1);
tt_assert(ch1->registered);
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/* Finish opening it */
channel_change_state_open(ch1);
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/* It should start off in SCHED_CHAN_IDLE */
tt_int_op(ch1->scheduler_state, OP_EQ, SCHED_CHAN_IDLE);
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/* Now get another one */
ch2 = new_fake_channel();
ch2->magic = TLS_CHAN_MAGIC;
tt_assert(ch2);
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ch2->state = CHANNEL_STATE_OPENING;
ch2->cmux = circuitmux_alloc();
channel_register(ch2);
tt_assert(ch2->registered);
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/*
* Don't open ch2; then channel_num_cells_writeable() will return
* zero and we'll get coverage of that exception case in scheduler_run()
*/
tt_int_op(ch1->state, OP_EQ, CHANNEL_STATE_OPEN);
tt_int_op(ch2->state, OP_EQ, CHANNEL_STATE_OPENING);
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/* Send it to SCHED_CHAN_WAITING_TO_WRITE */
scheduler_channel_has_waiting_cells(ch1);
tt_int_op(ch1->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_TO_WRITE);
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/* This should send it to SCHED_CHAN_PENDING */
scheduler_channel_wants_writes(ch1);
tt_int_op(ch1->scheduler_state, OP_EQ, SCHED_CHAN_PENDING);
tt_int_op(smartlist_len(channels_pending), OP_EQ, 1);
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/* Now send ch2 to SCHED_CHAN_WAITING_FOR_CELLS */
scheduler_channel_wants_writes(ch2);
tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_FOR_CELLS);
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/* Drop ch2 back to idle */
scheduler_channel_doesnt_want_writes(ch2);
tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_IDLE);
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/* ...and back to SCHED_CHAN_WAITING_FOR_CELLS */
scheduler_channel_wants_writes(ch2);
tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_FOR_CELLS);
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/* ...and this should kick ch2 into SCHED_CHAN_PENDING */
scheduler_channel_has_waiting_cells(ch2);
tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_PENDING);
tt_int_op(smartlist_len(channels_pending), OP_EQ, 2);
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/*
* Now we've got two pending channels and need to fire off
* the scheduler run() that we kept.
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*/
run_func_ptr();
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/*
* Assert that they're still in the states we left and aren't still
* pending
*/
tt_int_op(ch1->state, OP_EQ, CHANNEL_STATE_OPEN);
tt_int_op(ch2->state, OP_EQ, CHANNEL_STATE_OPENING);
tt_assert(ch1->scheduler_state != SCHED_CHAN_PENDING);
tt_assert(ch2->scheduler_state != SCHED_CHAN_PENDING);
tt_int_op(smartlist_len(channels_pending), OP_EQ, 0);
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/* Now, finish opening ch2, and get both back to pending */
channel_change_state_open(ch2);
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scheduler_channel_wants_writes(ch1);
scheduler_channel_wants_writes(ch2);
scheduler_channel_has_waiting_cells(ch1);
scheduler_channel_has_waiting_cells(ch2);
tt_int_op(ch1->state, OP_EQ, CHANNEL_STATE_OPEN);
tt_int_op(ch2->state, OP_EQ, CHANNEL_STATE_OPEN);
tt_int_op(ch1->scheduler_state, OP_EQ, SCHED_CHAN_PENDING);
tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_PENDING);
tt_int_op(smartlist_len(channels_pending), OP_EQ, 2);
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/* Now, set up the channel_flush_some_cells() mock */
MOCK(channel_flush_some_cells, channel_flush_some_cells_mock);
/*
* 16 cells on ch1 means it'll completely drain into the 32 cells
* fakechan's num_cells_writeable() returns.
*/
channel_flush_some_cells_mock_set(ch1, 16);
/*
* This one should get sent back to pending, since num_cells_writeable()
* will still return non-zero.
*/
channel_flush_some_cells_mock_set(ch2, 48);
/*
* And re-run the scheduler run() loop with non-zero returns from
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* channel_flush_some_cells() this time.
*/
run_func_ptr();
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/*
* ch1 should have gone to SCHED_CHAN_WAITING_FOR_CELLS, with 16 flushed
* and 32 writeable.
*/
tt_int_op(ch1->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_FOR_CELLS);
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/*
* ...ch2 should also have gone to SCHED_CHAN_WAITING_FOR_CELLS, with
* channel_more_to_flush() returning false and channel_num_cells_writeable()
* > 0/
*/
tt_int_op(ch2->scheduler_state, OP_EQ, SCHED_CHAN_WAITING_FOR_CELLS);
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/* Close */
channel_mark_for_close(ch1);
tt_int_op(ch1->state, OP_EQ, CHANNEL_STATE_CLOSING);
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channel_mark_for_close(ch2);
tt_int_op(ch2->state, OP_EQ, CHANNEL_STATE_CLOSING);
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channel_closed(ch1);
tt_int_op(ch1->state, OP_EQ, CHANNEL_STATE_CLOSED);
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ch1 = NULL;
channel_closed(ch2);
tt_int_op(ch2->state, OP_EQ, CHANNEL_STATE_CLOSED);
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ch2 = NULL;
/* Shut things down */
channel_flush_some_cells_mock_free_all();
channel_free_all();
scheduler_free_all();
mock_event_free_all();
done:
tor_free(ch1);
tor_free(ch2);
cleanup_scheduler_options();
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UNMOCK(channel_flush_some_cells);
UNMOCK(scheduler_compare_channels);
UNMOCK(tor_libevent_get_base);
UNMOCK(get_options);
}
static void
test_scheduler_loop_kist(void *arg)
{
(void) arg;
#ifndef HAVE_KIST_SUPPORT
return;
#endif
channel_t *ch1 = new_fake_channel(), *ch2 = new_fake_channel();
channel_t *ch3 = new_fake_channel();
/* setup options so we're sure about what sched we are running */
MOCK(get_options, mock_get_options);
MOCK(channel_flush_some_cells, channel_flush_some_cells_mock);
MOCK(channel_more_to_flush, channel_more_to_flush_mock);
MOCK(channel_write_to_kernel, channel_write_to_kernel_mock);
MOCK(channel_should_write_to_kernel, channel_should_write_to_kernel_mock);
MOCK(update_socket_info_impl, update_socket_info_impl_mock);
clear_options();
mocked_options.KISTSchedRunInterval = 11;
set_scheduler_options(SCHEDULER_KIST);
scheduler_init();
tt_assert(ch1);
ch1->magic = TLS_CHAN_MAGIC;
ch1->state = CHANNEL_STATE_OPENING;
ch1->cmux = circuitmux_alloc();
channel_register(ch1);
tt_assert(ch1->registered);
channel_change_state_open(ch1);
scheduler_channel_has_waiting_cells(ch1);
scheduler_channel_wants_writes(ch1);
channel_flush_some_cells_mock_set(ch1, 5);
tt_assert(ch2);
ch2->magic = TLS_CHAN_MAGIC;
ch2->state = CHANNEL_STATE_OPENING;
ch2->cmux = circuitmux_alloc();
channel_register(ch2);
tt_assert(ch2->registered);
channel_change_state_open(ch2);
scheduler_channel_has_waiting_cells(ch2);
scheduler_channel_wants_writes(ch2);
channel_flush_some_cells_mock_set(ch2, 5);
the_scheduler->run();
scheduler_channel_has_waiting_cells(ch1);
channel_flush_some_cells_mock_set(ch1, 5);
the_scheduler->run();
scheduler_channel_has_waiting_cells(ch1);
channel_flush_some_cells_mock_set(ch1, 5);
scheduler_channel_has_waiting_cells(ch2);
channel_flush_some_cells_mock_set(ch2, 5);
the_scheduler->run();
channel_flush_some_cells_mock_free_all();
/* We'll try to run this closed channel threw the scheduler loop and make
* sure it ends up in the right state. */
tt_assert(ch3);
ch3->magic = TLS_CHAN_MAGIC;
ch3->state = CHANNEL_STATE_OPEN;
ch3->cmux = circuitmux_alloc();
channel_register(ch3);
tt_assert(ch3->registered);
ch3->scheduler_state = SCHED_CHAN_WAITING_FOR_CELLS;
scheduler_channel_has_waiting_cells(ch3);
/* Should be in the pending list now waiting to be handled. */
tt_int_op(ch3->scheduler_state, OP_EQ, SCHED_CHAN_PENDING);
tt_int_op(smartlist_len(get_channels_pending()), OP_EQ, 1);
/* By running the scheduler on a closed channel, it should end up in the
* IDLE state and not in the pending channel list. */
ch3->state = CHANNEL_STATE_CLOSED;
the_scheduler->run();
tt_int_op(ch3->scheduler_state, OP_EQ, SCHED_CHAN_IDLE);
tt_int_op(smartlist_len(get_channels_pending()), OP_EQ, 0);
done:
/* Prep the channel so the free() function doesn't explode. */
ch1->state = ch2->state = ch3->state = CHANNEL_STATE_CLOSED;
ch1->registered = ch2->registered = ch3->registered = 0;
channel_free(ch1);
channel_free(ch2);
channel_free(ch3);
UNMOCK(update_socket_info_impl);
UNMOCK(channel_should_write_to_kernel);
UNMOCK(channel_write_to_kernel);
UNMOCK(channel_more_to_flush);
UNMOCK(channel_flush_some_cells);
UNMOCK(get_options);
scheduler_free_all();
return;
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}
static void
test_scheduler_channel_states(void *arg)
{
(void)arg;
perform_channel_state_tests(-1, SCHEDULER_VANILLA);
perform_channel_state_tests(11, SCHEDULER_KIST_LITE);
#ifdef HAVE_KIST_SUPPORT
perform_channel_state_tests(11, SCHEDULER_KIST);
#endif
}
static void
test_scheduler_initfree(void *arg)
{
(void)arg;
tt_ptr_op(channels_pending, ==, NULL);
tt_ptr_op(run_sched_ev, ==, NULL);
mock_event_init();
MOCK(tor_libevent_get_base, tor_libevent_get_base_mock);
MOCK(get_options, mock_get_options);
set_scheduler_options(SCHEDULER_KIST);
set_scheduler_options(SCHEDULER_KIST_LITE);
set_scheduler_options(SCHEDULER_VANILLA);
scheduler_init();
tt_ptr_op(channels_pending, !=, NULL);
tt_ptr_op(run_sched_ev, !=, NULL);
/* We have specified nothing in the torrc and there's no consensus so the
* KIST scheduler is what should be in use */
tt_ptr_op(the_scheduler, ==, get_kist_scheduler());
tt_int_op(sched_run_interval, ==, 10);
scheduler_free_all();
UNMOCK(tor_libevent_get_base);
mock_event_free_all();
tt_ptr_op(channels_pending, ==, NULL);
tt_ptr_op(run_sched_ev, ==, NULL);
done:
UNMOCK(get_options);
cleanup_scheduler_options();
return;
}
static void
test_scheduler_can_use_kist(void *arg)
{
(void)arg;
int res_should, res_freq;
MOCK(get_options, mock_get_options);
/* Test force enabling of KIST */
clear_options();
mocked_options.KISTSchedRunInterval = 1234;
res_should = scheduler_can_use_kist();
res_freq = kist_scheduler_run_interval(NULL);
#ifdef HAVE_KIST_SUPPORT
tt_int_op(res_should, ==, 1);
#else /* HAVE_KIST_SUPPORT */
tt_int_op(res_should, ==, 0);
#endif /* HAVE_KIST_SUPPORT */
tt_int_op(res_freq, ==, 1234);
/* Test defer to consensus, but no consensus available */
clear_options();
mocked_options.KISTSchedRunInterval = 0;
res_should = scheduler_can_use_kist();
res_freq = kist_scheduler_run_interval(NULL);
#ifdef HAVE_KIST_SUPPORT
tt_int_op(res_should, ==, 1);
#else /* HAVE_KIST_SUPPORT */
tt_int_op(res_should, ==, 0);
#endif /* HAVE_KIST_SUPPORT */
tt_int_op(res_freq, ==, 10);
/* Test defer to consensus, and kist consensus available */
MOCK(networkstatus_get_param, mock_kist_networkstatus_get_param);
clear_options();
mocked_options.KISTSchedRunInterval = 0;
res_should = scheduler_can_use_kist();
res_freq = kist_scheduler_run_interval(NULL);
#ifdef HAVE_KIST_SUPPORT
tt_int_op(res_should, ==, 1);
#else /* HAVE_KIST_SUPPORT */
tt_int_op(res_should, ==, 0);
#endif /* HAVE_KIST_SUPPORT */
tt_int_op(res_freq, ==, 12);
UNMOCK(networkstatus_get_param);
/* Test defer to consensus, and vanilla consensus available */
MOCK(networkstatus_get_param, mock_vanilla_networkstatus_get_param);
clear_options();
mocked_options.KISTSchedRunInterval = 0;
res_should = scheduler_can_use_kist();
res_freq = kist_scheduler_run_interval(NULL);
tt_int_op(res_should, ==, 0);
tt_int_op(res_freq, ==, 0);
UNMOCK(networkstatus_get_param);
done:
UNMOCK(get_options);
return;
}
static void
test_scheduler_ns_changed(void *arg)
{
(void) arg;
/*
* Currently no scheduler implementations use the old/new consensuses passed
* in scheduler_notify_networkstatus_changed, so it is okay to pass NULL.
*
* "But then what does test actually exercise???" It tests that
* scheduler_notify_networkstatus_changed fetches the correct value from the
* consensus, and then switches the scheduler if necessasry.
*/
MOCK(get_options, mock_get_options);
clear_options();
set_scheduler_options(SCHEDULER_KIST);
set_scheduler_options(SCHEDULER_VANILLA);
tt_ptr_op(the_scheduler, ==, NULL);
/* Change from vanilla to kist via consensus */
the_scheduler = get_vanilla_scheduler();
MOCK(networkstatus_get_param, mock_kist_networkstatus_get_param);
scheduler_notify_networkstatus_changed(NULL, NULL);
UNMOCK(networkstatus_get_param);
#ifdef HAVE_KIST_SUPPORT
tt_ptr_op(the_scheduler, ==, get_kist_scheduler());
#else
tt_ptr_op(the_scheduler, ==, get_vanilla_scheduler());
#endif
/* Change from kist to vanilla via consensus */
the_scheduler = get_kist_scheduler();
MOCK(networkstatus_get_param, mock_vanilla_networkstatus_get_param);
scheduler_notify_networkstatus_changed(NULL, NULL);
UNMOCK(networkstatus_get_param);
tt_ptr_op(the_scheduler, ==, get_vanilla_scheduler());
/* Doesn't change when using KIST */
the_scheduler = get_kist_scheduler();
MOCK(networkstatus_get_param, mock_kist_networkstatus_get_param);
scheduler_notify_networkstatus_changed(NULL, NULL);
UNMOCK(networkstatus_get_param);
#ifdef HAVE_KIST_SUPPORT
tt_ptr_op(the_scheduler, ==, get_kist_scheduler());
#else
tt_ptr_op(the_scheduler, ==, get_vanilla_scheduler());
#endif
/* Doesn't change when using vanilla */
the_scheduler = get_vanilla_scheduler();
MOCK(networkstatus_get_param, mock_vanilla_networkstatus_get_param);
scheduler_notify_networkstatus_changed(NULL, NULL);
UNMOCK(networkstatus_get_param);
tt_ptr_op(the_scheduler, ==, get_vanilla_scheduler());
done:
UNMOCK(get_options);
cleanup_scheduler_options();
return;
}
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struct testcase_t scheduler_tests[] = {
{ "compare_channels", test_scheduler_compare_channels,
TT_FORK, NULL, NULL },
{ "channel_states", test_scheduler_channel_states, TT_FORK, NULL, NULL },
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{ "initfree", test_scheduler_initfree, TT_FORK, NULL, NULL },
{ "loop_vanilla", test_scheduler_loop_vanilla, TT_FORK, NULL, NULL },
{ "loop_kist", test_scheduler_loop_kist, TT_FORK, NULL, NULL },
{ "ns_changed", test_scheduler_ns_changed, TT_FORK, NULL, NULL},
{ "should_use_kist", test_scheduler_can_use_kist, TT_FORK, NULL, NULL },
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END_OF_TESTCASES
};